US20050197764A1 - Navigation system for a vehicle - Google Patents
Navigation system for a vehicle Download PDFInfo
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- US20050197764A1 US20050197764A1 US11/000,982 US98204A US2005197764A1 US 20050197764 A1 US20050197764 A1 US 20050197764A1 US 98204 A US98204 A US 98204A US 2005197764 A1 US2005197764 A1 US 2005197764A1
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- vehicle
- navigation system
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/26—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
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- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/09—Arrangements for giving variable traffic instructions
- G08G1/0962—Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
- G08G1/0967—Systems involving transmission of highway information, e.g. weather, speed limits
- G08G1/096708—Systems involving transmission of highway information, e.g. weather, speed limits where the received information might be used to generate an automatic action on the vehicle control
- G08G1/096716—Systems involving transmission of highway information, e.g. weather, speed limits where the received information might be used to generate an automatic action on the vehicle control where the received information does not generate an automatic action on the vehicle control
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- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/09—Arrangements for giving variable traffic instructions
- G08G1/0962—Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
- G08G1/0967—Systems involving transmission of highway information, e.g. weather, speed limits
- G08G1/096733—Systems involving transmission of highway information, e.g. weather, speed limits where a selection of the information might take place
- G08G1/096758—Systems involving transmission of highway information, e.g. weather, speed limits where a selection of the information might take place where no selection takes place on the transmitted or the received information
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- G—PHYSICS
- G08—SIGNALLING
- G08G—TRAFFIC CONTROL SYSTEMS
- G08G1/00—Traffic control systems for road vehicles
- G08G1/09—Arrangements for giving variable traffic instructions
- G08G1/0962—Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
- G08G1/0967—Systems involving transmission of highway information, e.g. weather, speed limits
- G08G1/096766—Systems involving transmission of highway information, e.g. weather, speed limits where the system is characterised by the origin of the information transmission
- G08G1/096791—Systems involving transmission of highway information, e.g. weather, speed limits where the system is characterised by the origin of the information transmission where the origin of the information is another vehicle
Definitions
- the present invention relates to a navigation system for a vehicle comprising an evaluation unit for capturing and conditioning vehicle data and/or topographical data, a transmission unit, which is coupled to the evaluation unit, for sending the data captured by the evaluation unit or derived therefrom to navigation systems in other vehicles, a reception unit for receiving vehicle data and/or topographical data or data derived therefrom from navigation systems in other vehicles, a processing unit which is coupled to the reception unit for the purpose of logically combining and conditioning the data provided by the navigation systems in other vehicles, and an output unit for outputting the logically combined and conditioned data, which is coupled to the processing unit.
- Navigation systems are normally used to show the driver of a motor vehicle the path of travel from a starting point to a destination.
- the navigation system normally stores an electronic map.
- means are provided for the purpose of continually ascertaining the current position of the vehicle.
- a GPS Global Positioning System
- DE-4034681-A1 discloses, in this regard, a system for transmitting traffic or operating information between vehicles, in which each vehicle records at least the speed of travel and the location of the vehicle in question and locations of other vehicles and transmits them to other passing vehicles. At the same time, the system receives information from the passing vehicles, processes it and shows the processed information on a display device.
- DE-19903909-A1 describes a method for dynamically obtaining relevant traffic information and for optimizing a route for a vehicle, in which data are created and sent on the basis of the vehicle's own sensors and the data from other vehicles are received. Data from other vehicles may be requested specifically.
- the invention achieves the object by means of a navigation system of the type mentioned at the outset, in which the evaluation unit assigns a respective covered path range a numerical value which represents the current traffic conditions over this path range, with a positive numerical value corresponding to a section on which driving is easy and a negative numerical value signifying poor traffic conditions.
- Vehicle data and/or topographical data are understood to mean data which have an information content which is meaningful to other vehicles or vehicle drivers during route planning. These data are accordingly dependent on the road on which the vehicle is currently located and/or the traffic or ambient conditions on that road. They include, by way of example, road data such as the height of passes, the average speed attained, inclines and dips, the
- the vehicle data and/or topographical data preferably comprise the current speed and/or the average speed of the vehicle in which the navigation system is fitted, and the numerical values are accordingly speed-dependent values.
- this information may preferably be used to pass on information about the road situation, for example about the nature of the road covering, the suitability for transporting dangerous goods or transporting particularly fragile or shock-sensitive goods etc.
- the evaluation unit may provide the road section covered with a positive speed marker, for example if the vehicle has progressed quickly in the flow of traffic. When the traffic is being held up, on the other hand, this sluggish traffic is documented with a correspondingly negative value.
- the evaluation unit is preferably designed such that idle times, refueling stops etc., are taken into account as appropriate.
- a suitable starting point and destination for path ranges is, by way of example, nodes on an electronic map, which result from junctions or forks in main roads, or capital cities.
- the speed value associated with a covered path range is provided with a time stamp and is sent to the navigation systems in the other vehicles in this manner.
- time stamp it is possible to weight different good and poor markers, which are sent to the present navigation system by other vehicles, on the basis of their currency and/or to replace older information with more recent information.
- expiry times for example, after which information sent has become worthless. It is also possible to ascertain trends regarding whether a queue is still becoming longer or is already dispersing again.
- the evaluation unit preferably assigns the speed-dependent value to a path section on an electronic map.
- a means for finding the position of the vehicle is provided and is coupled to the transmission unit for the purpose of sending the position of the vehicle.
- Position finding can be performed using a global satellite positioning system, for example, the “GPS”. This simplifies the operation of assigning the captured data to a particular subsection on an electronic map.
- the navigation system is preferably equipped with an input unit.
- the input unit is preferably in the form of a multifunction pushbutton switch.
- the output unit preferably comprises a graphical display.
- This graphical display can be used to show speed-dependent values sent by other vehicles, for example in color-coded form, on an electronic map in order to provide the driver with a rapid overview of the current traffic situation and congestion situation.
- the vehicle in which the navigation system is provided is preferably a commercial vehicle.
- the present principle is advantageously shown to its best advantage particularly in commercial vehicles, since these normally have to move also in areas with a weak infrastructure while observing delivery and pickup deadlines.
- the transmission unit and the reception unit are preferably designed for satellite radio.
- the data transmission is thus ensured independently of a locally provided mobile radio network.
- the navigation system may also comprise a mobile radio transmission and reception module.
- FIG. 1 shows a first exemplary embodiment of a network, formed by a plurality of navigation systems, with a central structure,
- FIG. 2 shows a second exemplary embodiment of a network, formed by a plurality of navigation systems, with a decentralized structure
- FIG. 3 shows an example of a simplified, graphical display of an electronic map, in which subsections are assessed in terms of the flow of traffic on the basis of the present principle, and
- FIG. 4 shows an exemplary embodiment of an inventive navigation system using a highly simplified block diagram.
- FIG. 1 uses a simplified block diagram to show the principle of the inventive navigation system using the example of a centralized network structure.
- four navigation systems 1 , 2 , 3 , 4 are provided which are respectively fitted in different vehicles.
- the navigation systems 1 to 4 are each coupled to a central server 5 via a bidirectional transmission channel.
- the bidirectional transmission channels are preferably in the form of satellite radio links.
- the central server 5 gathers topographical and vehicle data or data derived therefrom, namely the average speed at which the vehicle is moving, from the navigation systems 1 to 4 . This information is made available to the vehicle navigation system by a data bus in the vehicle. In this case, only the current values respectively associated with the path ranges covered, which values are speed-dependent, are captured and evaluated. These are logically combined with one another and with an electronic map stored on the central server 5 . In this case, the speed-dependent values are respectively stored after having been provided with a time stamp.
- the latter assembles the appropriate data on the basis of the traffic situations sent and provides them for retrieval by the querying navigation system. It is thus possible to take into account traffic congestion, roads closed on account of roadworks, closed mountain passes etc., on the basis of latest information, without this requiring congestion indicators in fixed locations.
- the navigation systems which are able to perform route planning weighted with the current traffic situation, gather the information (on which this route planning is based) abut the volume of traffic themselves. It is also in line with the present principle that said principle works better the more vehicles there are involved and cooperating with the network described on the basis of FIG. 1 .
- a central server 5 with a central database for storing the captured data or data derived therefrom which are provided by the different navigation systems 1 to 4 is not absolutely essential on the basis of the present principle.
- a decentralized network 6 may be provided which couples the navigation systems 1 to 4 to one another bidirectionally. The computation power to be provided and the required memory for gathering and logically combining the data provided by the different navigation systems is advantageously distributed over the various navigation systems 1 to 4 in this case.
- the navigation systems 1 to 4 thus form a self-educating system which is capable of reacting to the current traffic situation, which it records itself, and of routing vehicles which are involved, which also gather information themselves, via routes with little traffic in appropriate fashion.
- FIG. 3 shows an exemplary embodiment of an electronic map which, in line with the present principle, comprises road sections weighted with values which are dependent on the traffic flow.
- FIG. 3 shows a map with a starting point A, a destination B, nodes C, D, E, F and edges 15 which connect the nodes to one another.
- the edges 15 represent path ranges, that is to say road sections.
- the road sections have a respective associated value which represents the current traffic situation, that is to say the current traffic conditions on this road section.
- a positive numerical value corresponds to a road on which driving is easy
- a negative numerical value signifies poor traffic conditions, for example a queue or a closed road.
- the speed-dependent values which are in a range between ⁇ 5 and +5 in the present case, are assembled from a multiplicity of speed-dependent values in this case which have respectively been sent by one or more navigation systems.
- the navigation system can take the stored, electronic map with the subsections assessed using current traffic information as a basis for calculating and visually outputting a route which is currently most favorable in terms of traffic from the starting point A to the destination B for the driver.
- the frequency and currency of speed-dependent values with a high numerical value would indicate an economical path with little traffic.
- the data may be gathered and conditioned centrally or locally in this case, depending on the network principle used.
- FIG. 4 shows a simplified block diagram of an inventive navigation system 1 for a commercial vehicle.
- the latter comprises an evaluation unit 7 for capturing and conditioning topographical and vehicle data, a transmission unit 8 for sending the captured data or data derived therefrom to navigation systems 2 to 4 in further vehicles, which is bidirectionally coupled to the evaluation unit 7 via a processing unit 9 , a reception unit 10 for receiving data from navigation systems 2 to 4 in further vehicles, and also an output unit 11 for outputting the logically combined and conditioned data, which are coupled to the processing unit 9 .
- the processing unit 9 is designed for logically combining and conditioning the data provided by the navigation systems in further vehicles 2 to 4 or data derived therefrom.
- the evaluation unit 7 is coupled to a databus system in the vehicle, in the present case to a CAN-BUS, for the purpose of capturing vehicle data, such as the average speed.
- the vehicle bus system could also be an MOST or a K-line.
- the evaluation unit 7 gathers the vehicle data which are relevant to the navigation system and provides them to the processing unit 9 in preprocessed form.
- the processing unit 9 which is in programmable form, is also coupled bidirectionally to a GPS module 12 and to a memory 13 for the purpose of position finding.
- a power supply unit 16 is provided which provides a supply voltage for the evaluation unit 7 , the processing unit 9 , the radio module 8 , 10 and the memory 13 . To supply it with power, the onboard power supply module 16 is connected to the vehicle battery or to the onboard power supply network.
- an input unit 14 for inputting a starting point A and a destination B and also further parameters and selections for
Abstract
The invention relates to a navigation system for a vehicle which allows route planning depending on the current traffic volume. For this purpose, the navigation system is provided with an evaluation unit for detecting one of a vehicle and topographical data, for example the average speed of the vehicle. This infoimation is transmitted to other systems in a network. A receiving unit can be used to receive current traffic jam information from other navigation systems, thereby allowing for an automatic and precise route planning which takes into consideration traffic jams and does not require stationary traffic jam detectors. The inventive navigation system is especially suitable for use in developing countries.
Description
- The present application is a continuation of international application PCT/DE03/01722, filed May 27, 2003 which designated the United States, and claims priority to German application 10226082.2, filed Jun. 12, 2002, the both of which are herein incorporated by reference.
- The present invention relates to a navigation system for a vehicle comprising an evaluation unit for capturing and conditioning vehicle data and/or topographical data, a transmission unit, which is coupled to the evaluation unit, for sending the data captured by the evaluation unit or derived therefrom to navigation systems in other vehicles, a reception unit for receiving vehicle data and/or topographical data or data derived therefrom from navigation systems in other vehicles, a processing unit which is coupled to the reception unit for the purpose of logically combining and conditioning the data provided by the navigation systems in other vehicles, and an output unit for outputting the logically combined and conditioned data, which is coupled to the processing unit.
- Navigation systems are normally used to show the driver of a motor vehicle the path of travel from a starting point to a destination. In this context, the navigation system normally stores an electronic map. In addition, means are provided for the purpose of continually ascertaining the current position of the vehicle. For this, a GPS (Global Positioning System) is normally fitted in the vehicle.
- To be able to react to current events during route planning, such as roadworks, congestion information, accidents etc, it is useful to provide the navigation system in the motor vehicle with such, current congestion information. This may be done by using the car radio, for example, to receive current congestion information in digitized form from a broadcast radio station and to supply it to the navigation system. In order to obtain information about the current flow of traffic, it is possible to use stationary congestion indicators. These stationary congestion indicators are mounted on motorway bridges, for example. The congestion information obtained in this manner is gathered and is input into the vehicle's navigation system. Taking economic considerations into account, stationary congestion indicators of this type will be set up only at sites which are at risk of congestion anyway or along sections of the motorway network which carry a lot of traffic, however.
- The fundamental drawback of such systems is that areas with a small population or with a weak infrastructure, for example in developing countries, cannot be equipped with stationary congestion indicator networks in consideration of cost aspects.
- DE-4034681-A1 discloses, in this regard, a system for transmitting traffic or operating information between vehicles, in which each vehicle records at least the speed of travel and the location of the vehicle in question and locations of other vehicles and transmits them to other passing vehicles. At the same time, the system receives information from the passing vehicles, processes it and shows the processed information on a display device.
- DE-19903909-A1 describes a method for dynamically obtaining relevant traffic information and for optimizing a route for a vehicle, in which data are created and sent on the basis of the vehicle's own sensors and the data from other vehicles are received. Data from other vehicles may be requested specifically.
- It is an object of the present invention to specify a navigation system for a vehicle which operates independently of the presence of stationary congestion indicator systems, can be implemented with little complexity and can provide the driver with current traffic or road information.
- The invention achieves the object by means of a navigation system of the type mentioned at the outset, in which the evaluation unit assigns a respective covered path range a numerical value which represents the current traffic conditions over this path range, with a positive numerical value corresponding to a section on which driving is easy and a negative numerical value signifying poor traffic conditions.
- In this way, the volume of data to be sent to other navigation systems is reduced.
- Vehicle data and/or topographical data are understood to mean data which have an information content which is meaningful to other vehicles or vehicle drivers during route planning. These data are accordingly dependent on the road on which the vehicle is currently located and/or the traffic or ambient conditions on that road. They include, by way of example, road data such as the height of passes, the average speed attained, inclines and dips, the
- The vehicle data and/or topographical data preferably comprise the current speed and/or the average speed of the vehicle in which the navigation system is fitted, and the numerical values are accordingly speed-dependent values.
- If the average speed or the current speed is very low, for example, then it may be assumed that the vehicle is currently in a traffic jam.
- Since the electronic bus systems in modern vehicles are used to capture and gather a great deal of information, for example about the engine, transmission, shock absorbers, inclination etc, this information may preferably be used to pass on information about the road situation, for example about the nature of the road covering, the suitability for transporting dangerous goods or transporting particularly fragile or shock-sensitive goods etc.
- The evaluation unit may provide the road section covered with a positive speed marker, for example if the vehicle has progressed quickly in the flow of traffic. When the traffic is being held up, on the other hand, this sluggish traffic is documented with a correspondingly negative value. In this context the evaluation unit is preferably designed such that idle times, refueling stops etc., are taken into account as appropriate. A suitable starting point and destination for path ranges is, by way of example, nodes on an electronic map, which result from junctions or forks in main roads, or capital cities.
- A further preference is that the speed value associated with a covered path range is provided with a time stamp and is sent to the navigation systems in the other vehicles in this manner. Using the time stamp, it is possible to weight different good and poor markers, which are sent to the present navigation system by other vehicles, on the basis of their currency and/or to replace older information with more recent information. In addition, it is possible to stipulate expiry times, for example, after which information sent has become worthless. It is also possible to ascertain trends regarding whether a queue is still becoming longer or is already dispersing again.
- The evaluation unit preferably assigns the speed-dependent value to a path section on an electronic map.
- Hence, in order to carry out route planning from a starting point to a destination, there is no difficulty in assembling a plurality of subsections, which are each provided with speed-dependent values, to give a preferred route.
- In line with one preferred embodiment of the invention, a means for finding the position of the vehicle is provided and is coupled to the transmission unit for the purpose of sending the position of the vehicle. Position finding can be performed using a global satellite positioning system, for example, the “GPS”. This simplifies the operation of assigning the captured data to a particular subsection on an electronic map.
- For the purpose of inputting a desired travel destination, the navigation system is preferably equipped with an input unit. To allow ergonomic operation by the vehicle driver, the input unit is preferably in the form of a multifunction pushbutton switch.
- The output unit preferably comprises a graphical display. This graphical display can be used to show speed-dependent values sent by other vehicles, for example in color-coded form, on an electronic map in order to provide the driver with a rapid overview of the current traffic situation and congestion situation.
- The vehicle in which the navigation system is provided is preferably a commercial vehicle. The present principle is advantageously shown to its best advantage particularly in commercial vehicles, since these normally have to move also in areas with a weak infrastructure while observing delivery and pickup deadlines.
- It goes without saying that the principle may also be used to advantage in personal transport, for example by taxi groups, buses etc.
- The transmission unit and the reception unit are preferably designed for satellite radio. The data transmission is thus ensured independently of a locally provided mobile radio network. Alternatively or in addition to a satellite radio module, the navigation system may also comprise a mobile radio transmission and reception module.
- Further details and advantageous refinements of the invention can be found in the subclaims.
- The invention is explained in more detail below using a plurality of exemplary embodiments with reference to the drawings, in which:
-
FIG. 1 shows a first exemplary embodiment of a network, formed by a plurality of navigation systems, with a central structure, -
FIG. 2 shows a second exemplary embodiment of a network, formed by a plurality of navigation systems, with a decentralized structure, -
FIG. 3 shows an example of a simplified, graphical display of an electronic map, in which subsections are assessed in terms of the flow of traffic on the basis of the present principle, and -
FIG. 4 shows an exemplary embodiment of an inventive navigation system using a highly simplified block diagram. -
FIG. 1 uses a simplified block diagram to show the principle of the inventive navigation system using the example of a centralized network structure. By way of example, fournavigation systems navigation systems 1 to 4 are each coupled to acentral server 5 via a bidirectional transmission channel. In this case, the bidirectional transmission channels are preferably in the form of satellite radio links. - The
central server 5 gathers topographical and vehicle data or data derived therefrom, namely the average speed at which the vehicle is moving, from thenavigation systems 1 to 4. This information is made available to the vehicle navigation system by a data bus in the vehicle. In this case, only the current values respectively associated with the path ranges covered, which values are speed-dependent, are captured and evaluated. These are logically combined with one another and with an electronic map stored on thecentral server 5. In this case, the speed-dependent values are respectively stored after having been provided with a time stamp. - If one of the
navigation systems 1 to 4 now requests a query regarding the fastest possible path from a starting point A to a destination B from thecentral server 5, the latter assembles the appropriate data on the basis of the traffic situations sent and provides them for retrieval by the querying navigation system. It is thus possible to take into account traffic congestion, roads closed on account of roadworks, closed mountain passes etc., on the basis of latest information, without this requiring congestion indicators in fixed locations. - Accordingly, in accordance with the present principle, the navigation systems which are able to perform route planning weighted with the current traffic situation, gather the information (on which this route planning is based) abut the volume of traffic themselves. It is also in line with the present principle that said principle works better the more vehicles there are involved and cooperating with the network described on the basis of
FIG. 1 . - The presence of a
central server 5 with a central database for storing the captured data or data derived therefrom which are provided by thedifferent navigation systems 1 to 4 is not absolutely essential on the basis of the present principle. Alternatively, asFIG. 2 shows, adecentralized network 6 may be provided which couples thenavigation systems 1 to 4 to one another bidirectionally. The computation power to be provided and the required memory for gathering and logically combining the data provided by the different navigation systems is advantageously distributed over thevarious navigation systems 1 to 4 in this case. - It is thus advantageously possible to dispense with setting up and maintaining a central server. The
navigation systems 1 to 4 thus form a self-educating system which is capable of reacting to the current traffic situation, which it records itself, and of routing vehicles which are involved, which also gather information themselves, via routes with little traffic in appropriate fashion. -
FIG. 3 shows an exemplary embodiment of an electronic map which, in line with the present principle, comprises road sections weighted with values which are dependent on the traffic flow. - Specifically,
FIG. 3 shows a map with a starting point A, a destination B, nodes C, D, E, F and edges 15 which connect the nodes to one another. In this case, theedges 15 represent path ranges, that is to say road sections. The road sections have a respective associated value which represents the current traffic situation, that is to say the current traffic conditions on this road section. In this case, a positive numerical value corresponds to a road on which driving is easy, whereas a negative numerical value signifies poor traffic conditions, for example a queue or a closed road. The speed-dependent values, which are in a range between −5 and +5 in the present case, are assembled from a multiplicity of speed-dependent values in this case which have respectively been sent by one or more navigation systems. - In a query mode, in which the driver stipulates a starting point and a destination A, B, the navigation system can take the stored, electronic map with the subsections assessed using current traffic information as a basis for calculating and visually outputting a route which is currently most favorable in terms of traffic from the starting point A to the destination B for the driver. In this context, the frequency and currency of speed-dependent values with a high numerical value would indicate an economical path with little traffic. The data may be gathered and conditioned centrally or locally in this case, depending on the network principle used.
-
FIG. 4 shows a simplified block diagram of aninventive navigation system 1 for a commercial vehicle. The latter comprises an evaluation unit 7 for capturing and conditioning topographical and vehicle data, atransmission unit 8 for sending the captured data or data derived therefrom tonavigation systems 2 to 4 in further vehicles, which is bidirectionally coupled to the evaluation unit 7 via aprocessing unit 9, areception unit 10 for receiving data fromnavigation systems 2 to 4 in further vehicles, and also anoutput unit 11 for outputting the logically combined and conditioned data, which are coupled to theprocessing unit 9. In this arrangement, theprocessing unit 9 is designed for logically combining and conditioning the data provided by the navigation systems infurther vehicles 2 to 4 or data derived therefrom. The evaluation unit 7 is coupled to a databus system in the vehicle, in the present case to a CAN-BUS, for the purpose of capturing vehicle data, such as the average speed. - Alternatively, the vehicle bus system could also be an MOST or a K-line. The evaluation unit 7 gathers the vehicle data which are relevant to the navigation system and provides them to the
processing unit 9 in preprocessed form. Theprocessing unit 9, which is in programmable form, is also coupled bidirectionally to aGPS module 12 and to amemory 13 for the purpose of position finding. In addition, a power supply unit 16 is provided which provides a supply voltage for the evaluation unit 7, theprocessing unit 9, theradio module memory 13. To supply it with power, the onboard power supply module 16 is connected to the vehicle battery or to the onboard power supply network. In addition, aninput unit 14 for inputting a starting point A and a destination B and also further parameters and selections for
Claims (11)
1. A navigation system for a vehicle, comprising:
an evaluation unit for capturing and conditioning vehicle data and/or topographical data,
a transmission unit, which is coupled to the evaluation unit, for sending the data captured by the evaluation unit or derived therefrom to navigation systems in other vehicles,
a reception unit for receiving vehicle data and/or topographical data or data derived therefrom from navigation systems in other vehicles,
a processing unit which is coupled to the reception unit for the purpose of logically combining and conditioning the data provided by the navigation systems in other vehicles, and
an output unit for outputting the logically combined and conditioned data, which is coupled to the processing unit.
2. The navigation system according to claim 1 , wherein the vehicle data include the current or average speed of the vehicle.
3. The navigation system according to claim 2 , wherein the evaluation unit assigns a value to a respective covered path range on the basis of the ascertained speed in this path range, and the transmission unit is designed to send the value which is dependent on the ascertained speed to the navigation systems in other vehicles.
4. The navigation system according to claim 3 , wherein the evaluation unit assigns a time-dependent value to the speed-dependent value associated with a covered path range, and the transmission unit is designed to send the time-stamped value which is dependent on the ascertained speed to the navigation systems in other vehicles.
5. The navigation system according to claim 3 , wherein the evaluation unit assigns the speed-dependent value to a path section on an electronic map.
6. The navigation system according to claim 1 , further comprising means for finding the position of the vehicle is provided and is coupled to the transmission unit for the purpose of sending the position of the vehicle.
7. The navigation system according to claim 1 , further comprising an input unit provided for inputting a desired travel destination.
8. The navigation system according to claim 1 , wherein the output unit comprises a graphical display.
9. The navigation system according to claim 1 , wherein the vehicle is a commercial vehicle.
10. The navigation system according to claim 1 , wherein the transmission unit and the reception unit are designed for satellite radio.
11. The navigation system according to claim 4 , wherein the evaluation unit assigns the speed-dependent value to a path section on an electronic map.
Applications Claiming Priority (3)
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DE10226084A DE10226084A1 (en) | 2002-06-12 | 2002-06-12 | Navigation system for a vehicle |
DE10226084.2 | 2002-12-06 | ||
PCT/DE2003/001722 WO2003107301A1 (en) | 2002-06-12 | 2003-05-27 | Navigation system for a vehicle |
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PCT/DE2003/001722 Continuation WO2003107301A1 (en) | 2002-06-12 | 2003-05-27 | Navigation system for a vehicle |
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WO2003107301A1 (en) | 2003-12-24 |
DE50306196D1 (en) | 2007-02-15 |
DE10226084A1 (en) | 2004-01-08 |
US7292934B2 (en) | 2007-11-06 |
EP1512128B1 (en) | 2007-01-03 |
BR0311765A (en) | 2005-03-15 |
EP1512128A1 (en) | 2005-03-09 |
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